Olonia Stål, 1862

Genus Olonia Stål, 1862 View in CoL View at ENA

Figs 1–3 View Fig. 1 View Fig. 2 View Fig. 3

Olonia Stål, 1862: 488 View in CoL (description in key; list of included species; type species: Eurybrachys rubicunda View in CoL Walker, 1851, by subsequent designation in Distant 1906: 206).

Lyncilia Stål, 1863: 248 (description) syn. nov. (type species: Lyncilia nobilis Stål, 1863 View in CoL , by monotypy).

Olonia View in CoL – Stål 1863: 250 (description of a new species). — Atkinson 1886: 13 (incomplete English translation of key to genera of Eurybrachidae in Stål 1862 View in CoL ). — Karsch 1890: 60 (compared with Metoponitys Karsch, 1890 View in CoL ); 1895: 215 (compared with Aspidonitys Karsch, 1895 View in CoL ). — Melichar 1903: 67 (placed in a group of eurybrachid genera without a spine under the eye). — Distant 1906: 206 (type species designation, new species), 207 (compared to Yarrana Distant, 1906 View in CoL ). — Kirkaldy 1907: 105 (listed without comment). — Schmidt 1908: 243 (placed in Platybrachini (= current Platybrachinae)). — Hacker 1924: 40 (compared with Platybrachys Stål, 1859 View in CoL ; notes on O. viridiventris Stål, 1863 View in CoL (now in Hackerobrachys Constant, 2006 View in CoL )). — Metcalf 1936: 131 (senior homonym of Olonia Muir, 1925 View in CoL ); 1938: 294 (senior homonym of Olonia Muir, 1925 View in CoL ); 1947: 163 (listed as typical genus of the Australian fauna); 1956: 63 (catalogued). — Fennah 1964: 159 (in key to genera of Platybrachini), 162 (compared with Maon Fennah, 1964 View in CoL ). — Constant 2005a: 41 (mentioned in historical review of Metoponitys Karsch, 1890 View in CoL ); 2006a: 47 (mentioned as needing revision); 2006b: 31 (compared with Hackerobrachys Constant, 2006 View in CoL and Fletcherobrachys Constant, 2006 View in CoL ).

Lyncilia – Karsch 1895: 215 (compared with Aspidonitys Karsch, 1895 View in CoL ). — Schmidt 1908: 243 (placed in the Platybrachini (= current Platybrachinae)). — Metcalf 1956: 68 (catalogued). — Fennah 1964 (synonymized under Platybrachys Stål, 1859 View in CoL (erroneous)).

non Olonia View in CoL – Muir 1925: 161 (new genus of Cixiidae View in CoL (junior homonym of Olonia Stål, 1862 View in CoL )). — Metcalf 1936: 131 ( Muirolonia View in CoL as replacement name of Olonia Muir, 1925 View in CoL in Cixiidae View in CoL ); 1938: 294 ( Muirolonia View in CoL as replacement name of Olonia Muir, 1925 View in CoL ( Muirolonia View in CoL erroneously stated as being a new genus)).

Diagnosis

Rather small-sized (6–12 mm), dark brown variegated with black and white, tegmina usually with a white marking along costal margin on nodal line and posterior wings usually with a white marking near externoapical angle, sometimes orange on disc. The genus can be recognized by the following set of characters:

(1) gonostyli strongly sclerified and fused basally on about ½ of length

(2) gonostyli divided into a centroventral and a laterodorsal part

(3) gonostyli with laterodorsal part with large lateral process projecting laterally and bearing dorsoapical, articulate, spoon-shaped process

(4) aedeagus strongly reduced with dorsal portion of phallobase projecting dorsally as a spine or hook

The genus shares the condition of possessing a spoon-shaped process on the gonostyli with the Australian genera Chewobrachys Constant, 2008 , Fletcherobrachys Constant, 2006 , Hackerobrachys Constant, 2006 , Maeniana Metcalf, 1952 , Nirus Jacobi, 1928 and Stalobrachys gen. nov. but differs

– from Chewobrachys by its smaller size (6–12 mm; 12–16 mm in Chewobrachys ), the dark brown colour (greyish brown in Chewobrachys ) and the male gonostyli divided into a centroventral and a laterodorsal part (not divided in Chewobrachys )

– from Fletcherobrachys by the bright red abdomen (green to orange in Fletcherobrachys ), the hind wings brown or with discal orange marking (basal half white in Fletcherobrachys ), the absence of sexual dimorphism on median tibiae (with externodistal process in females of Fletcherobrachys ) and the male gonostyli fused only on basal ½ and divided into a centroventral and a laterodorsal part (fused along most of their length and not divided in Fletcherobrachys )

– from Hackerobrachys by the frons being brown and slightly convex (bright yellow to red and strongly convex in Hackerobrachys ), the posterior wings with some white and/or orange markings and rounded apically (uniformly brown with apex subquadrate in Hackerobrachys ) and the male gonostyli fused only on basal ½ and divided into a centroventral and a laterodorsal part (fused along most of their length and not divided in Hackerobrachys )

– from Maeniana by the pygofer having the posterior margin strongly sinuate (with elongate laterodorsal process projecting posteriorly in Maeniana ), the gonostyli fused on about ½ of their length (not or very shortly fused in Maeniana ), and the laterodorsal part of the gonostyli with a strong spine or hook and with the lateral process bearing a spoon-shaped process (laterodorsal part elongate and laminate, without spine or hook, and bearing a spoon-shaped process apically in Maeniana )

– from Nirus by the frons being slightly convex (concave in Nirus ), the pygofer broader on the dorsal ¾ (on ventral half in Nirus ), and the laterodorsal part of the gonostyli with a strong spine or hook and with the lateral process bearing a spoon-shaped process (laterodorsal part of gonostyli large and laterally compressed, not strongly sclerified and without a spine or hook in Nirus )

– from Stalobrachys gen.nov. by the narrower posterior wings with LW/BW =1.7–2.0 (1.5 in Stalobrachys gen. nov.), the pygofer with the posterior margin strongly sinuate (with elongate laterodorsal process projecting posteriorly in Stalobrachys gen. nov.), the gonostyli fused on about ½ of their length (not or very shortly fused in Stalobrachys gen. nov.), and the laterodorsal part of the gonostyli with a strong spine or hook and with the lateral process bearing a spoon-shaped process (laterodorsal part elongate and laminate, without spine or hook, and bearing a spoon-shaped process apically in Stalobrachys gen. nov.)

The genus Loisobrachys Constant, 2008 is known from a single female and was placed close to Hackerobrachys ( Constant 2008b) . Hence, the males of the genus potentially share the condition of possessing gonostyli with a spoon-shaped process. However, Olonia can easily be separated from Loisobrachys by its slightly convex frons (strongly convex in Loisobrachys ).

Historical review

1. Historical characters recognition review

Olonia was described by Stål (1862) within a key to the genera of Eurybrachidae without a spine under the eyes and with the clavus of the tegmina closed. From the key, the following characters could be extrapolated to define Olonia :

(1) posterior tibiae with 3 lateral spines

(2) frons transverse, with sides angulate

(3) pro- and mesonotum broader than combined length

(4) antennae short, placed under the eye

More recently, a key to the genera of Platybrachini was proposed by Fennah (1964), including Olonia for which the following distinctive combination of characters could be extrapolated:

(1) tegmina with CuA vein forked close to the nodal line

(2) tegmina with MP vein forked very close to the base

(3) genae without knob-like process under the eye

(4) frons more or less flat, without depressed areas near the base

(5) antennae not surpassing the eyes

(6) genital styles (= gonostyli) of male separated

Characters (2) and (6) are not correct: in Olonia , the MP is not forked very close to the base and Fennah’s statement probably comes from confusion with the ScP and RP, which diverge very basally, and the gonostyli in the male genitalia are fused basally.

2. Historical species review

Stål (1862) erected the genus Olonia for three species from Australia, Eurybrachys rubicunda Walker, 1851 , E. apicalis Walker, 1851 and E. transversa Walker, 1858 . The year after, Stål (1863) added one species from Queensland, O. viridiventris Stål, 1863 . Species were progressively added to the genus: O. picea by Kirkaldy (1906) (Queensland), O. marginata by Distant (1906) (Queensland), O. alboapicata and O. nigroapicata by Jacobi (1928) (Queensland and Western Australia, respectively), and O. ornata by Lallemand (1928) (Northern Territory). Jacobi (1928) synonymized O. picea Kirkaldy, 1906 with O. transversa ( Walker, 1858) , a view that I did not follow ( Constant 2005b), restoring O. picea as a separate species and considering O. transversa as a nomen dubium because the available specimen labelled as type in BMNH does not match the original description by Walker (1858). One last species, Cicada maura Fabricius, 1775 , was transferred to Olonia by Evans (1933) after being placed in the genus Eurymela Le Peletier & Serville, 1825 ( Cicadellidae : Eurymelinae ) for more than a century. Metcalf (1956) included 9 species in the genus in his catalogue of the Eurybrachidae . More recently, I transferred O. viridiventris Stål, 1863 to the genus Hackerobrachys Constant, 2006 and synonymized O. nigroapicata Jacobi, 1928 with Fletcherobrachys stillata (Bergroth, 1907) ( Constant 2006b) .

3. Historical classification review

The genus Olonia was placed by Schmidt (1908) in the tribe Platybrachini Schmidt, 1908 (equivalent to the present Platybrachinae, as the family Eurybrachidae was at that time treated as a subfamily of the Fulgoridae ) based on the following set of characters:

(1) clavus closed, with the claval veins (= Pcu and A1) fused before the apex of the clavus and Pcu +A1 reaching the apex of the clavus

(2) ventral margin of eyes without a spine

Metcalf (1956) placed the genus in the tribe Platybrachini of the Platybrachinae, a view followed by Fennah (1964).

Description

COLOURATION. Head, pro- and mesonotum, and tegmina brown, from pale brown to nearly black, usually variegated with darker and paler areas. Tegmina often with yellowish marking in middle of clavus on vein A1; triangular white marking along costal margin on nodal line, rarely missing; smaller white marking at apicosutural angle, rarely missing; sometimes white marking along costal margin at midlength. Posterior wings brown, usually darker on apical half; sometimes with orange marking in middle; white triangular marking at apicocostal angle, rarely missing. Pro- and mesofemora with 2 pale rings, obsolete in dark species; pro- and mesotibiae with 3 pale rings, obsolete in dark species; metafemora red to brown, darker apically; metatibiae brown. Abdomen and ventral face of thorax bright red; genital segments brown to black; abdominal segment VII white in females.

HEAD. As broad as thorax; vertex 4–5 times as broad as long, concave, with all margins slightly carinate; anterior and posterior margins rounded, parallel; frons about 1.7–1.95 times as broad as long, slightly convex, slightly wrinkled to rugulose, with peridiscal carina slightly marked; upper margin of frons straight in normal view; clypeus slightly surpassing anterior trochanters, elongate, with median carina towards apex; labium reaching hind coxae, with apical segment longer than broad, acuminate, shorter and more slender than penultimate; no infra-ocular spines on genae; ocelli absent; antennae elongate, not surpassing eye, not visible from above; scape about as long as broad, pedicel subcylindrical, elongate, narrowing towards apex.

THORAX. About 1.45 times as broad as combined length of pro- and mesonotum; pronotum about half as long as mesonotum; pronotum with disc weakly wrinkled, carina parallel to anterior margin and with two slightly impressed points on disc; mesonotum with disc weakly wrinkled, median and peridiscal carinae slightly marked.

TEGMINA. Slightly convex in smaller species to nearly flat in the larger ones; curving down at nodal line, often with apex slightly curved upwards; elongate, about 2.1–2.5 times as long as broad; costal margin slightly sinuate; apical margin obliquely rounded; sutural margin slightly oblique after clavus. Venation: veins ScP+RA and RP separated close to base; first fork of MP on basal ½; first fork of CuA slightly before apex of clavus; clavus closed; Pcu and A1 fused at ¾ of clavus length; Pcu+A1 reaching apical angle of clavus; numerous elongate cells along posterior half of costal margin and along apical margin.

POSTERIOR WINGS ( Fig. 1A View Fig. 1 ). Well developed, about as broad as tegmina, rounded apically; moderately narrow: LW/BW = 1.7–2.0; anal area moderately developed; sutural margin weakly trilobous; not reaching apex of tegmina at rest; dark brown to black, with apicosutural triangular white spot, rarely missing; sometimes with central, small to very large, orange marking. All main veins visible from base, forked after nodal line and sometimes forming closed cells; transverse veinlets delimiting elongate cells on apical ½; veins A1 and A2 sometimes with 2–3 terminals. Arrangement of secondary veins and veinlets variable between specimens and sometimes between the two wings of the same specimen.

LEGS. Pro- and mesofemora and -tibiae dorsoventrally flattened, elongate and slender; metatibiae with 3 lateral and 9 apical spines; first metatarsomere ventrally with pad of microsetae at interno-apical angle and group of 6 spines ( Fig. 1B View Fig. 1 ). Metatibiotarsal formula: (3) 9/4/0.

MALE GENITALIA. Pygofer rather short, higher than long and sinuate in lateral view; posterior margin roundly projecting at dorsal ½. Anal tube dorsoventrally flattened, elongate, with lateral margins usually curved lateroventrally; epiproct at basal ½. Gonostyli fused basally, well sclerified, deeply divided in centroventral and laterodorsal parts, elongate and spinose or sword-shaped; laterodorsal part with strong spine or hook, sometimes bifid, and with large lateral process projecting laterad and bearing dorsoapical, articulate, spoon-shaped process. Aedeagus strongly reduced; dorsal portion of phallobase point- or hook-shaped; ventral portion of phallobase as more or less reduced, sclerified lamina; phallus membranous, dorsoventrally flattened.

FEMALE TERMINALIA ( Fig. 2 View Fig. 2 ) (based on O. marginata ). Abdominal segment VI slightly broader apically and with posterior margin largely emarginate medially in ventral view, and with a small process projecting lateroventrally on each side of emargination ( Fig. 2C View Fig. 2 ); anal tube elongate and narrow, curved postero-ventrad, v-shaped in cross section beyond anus, lanceolate in dorsal view ( Fig. 2A–B, D–E View Fig. 2 ); gonoplacs unilobed, projecting dorsolaterad, longer than high, not surpassing anal tube ( Fig. 2A–B, D–E View Fig. 2 ); gonapophysis IX large, elongate, apically rounded and curved dorsad ( Fig. 2A–B, D–E View Fig. 2 ); gonocoxae VIII resembling reniform inflated pouch ( Fig. 2A–E View Fig. 2 ); gonapophysis VIII dorsoventrally flattened and fused together and with sternite VII in a large semicircular lobe slightly emarginate apically ( Fig. 2A–E View Fig. 2 ); anterior vagina small and membranous; posterior vagina strongly sclerified, dorsoventrally flattened, short and broad basally, constricted and subtriangular distally ( Fig. 2D View Fig. 2 ); bursa copulatrix attached posterodorsally, oval, much larger than posterior vagina ( Fig. 2D–E View Fig. 2 ); walls bearing weak, longitudinally reticulated ornamentation ( Fig. 2D–E View Fig. 2 ).

SEXUAL DIMORPHISM. Females slightly larger than males. Colour dimorphism also present, in different patterns according to species, sometimes combined:

(1) white markings on anterior and posterior wings more developed in males

(2) orange marking on posterior wing larger in males

(3) apical margin of tegmina and posterior wings bordered with white in females, not in males

SIZE. ♂: 6.2–10.1 mm; ♀: 7.2–11.2 mm.

Distribution

Australia: eastern and northern Queensland, also on islands ( Fig. 3 View Fig. 3 ).

Biology

According to the available data, species of Olonia seem to be present all year round and to be polyphagous, living on plants close to the ground. They were recorded from plants in the families Bursaceae, Convolvulaceae , Myrtaceae , Solanaceae , Urticaceae and Vitaceae . Known habitats range from open forests to beaches. All species seem to have a rather restricted distribution. Species of Olonia are present in all bioregions included in the distribution range of the genus ( Fig. 3B View Fig. 3 ).

Species included (12)

O. bourgoini sp. nov.

O. danielsi sp. nov.

O. guillaumei sp.nov.

O. hochae sp. nov.

O. marginata Distant, 1906

O. maura ( Fabricius, 1775)

O. monteithi sp. nov.

O. nobilis ( Stål, 1863) comb. nov.

O. picea Kirkaldy, 1906

O. rubicunda ( Walker, 1851)

O. rylandae sp. nov.

O. soulierae sp. nov.

Remarks

Olonia apicalis ( Walker, 1851) and Olonia ornata Lallemand, 1928 are here excluded from Olonia and transferred to Maeniana Metcalf, 1952 and Platybrachys Stål, 1859 , respectively (see below).

Identification key to the species of Olonia

The following key uses the characters of the male genitalia; O. rubicunda ( Walker, 1851) is not included, as it is only known from a single female. Females should not be identified unless a male from the same collecting event is available to support the identification.

1. Process of the laterodorsal part of gonostyli bifid ( Figs 30D View Fig , 33D View Fig )................................................2

– Process of the laterodorsal part of gonostyli not bifid ( Figs 5D View Fig , 10D View Fig , 19D View Fig )...................................4

2. Process of the centroventral part of gonostyli with several teeth apically ( Fig. 30C View Fig ) ...................... ................................................................................................................. O. maura ( Fabricius, 1775)

– Process of the centroventral part of gonostyli without teeth apically ( Figs 33C View Fig , 42C View Fig )..................3

3. Processes of the laterodorsal part of gonostyli convergent apically, subequal in length and surpassing process of centroventral part in ventral view ( Fig. 42A, C–D View Fig ) ... O. picea ( Kirkaldy, 1906) View in CoL

– Processes of the laterodorsal part of gonostyli slightly diverging apically with dorsal one shorter than ventral one, and not reaching level of apex of process of centroventral part in ventral view ( Fig. 33A, C–D View Fig ) .................................................................................................. O. monteithi View in CoL sp. nov.

4. Processes of the laterodorsal part of gonostyli surpassing processes of centroventral part in ventral view ( Figs 19C View Fig , 46C View Fig )...........................................................................................................5

– Processes of the laterodorsal part of gonostyli shorter than processes of centroventral part in ventral view ( Figs 5C View Fig , 10C View Fig , 37C View Fig )....................................................................................................6

5. Processes of the laterodorsal part of gonostyli strongly sinuate with central portion straight ( Fig. 46A, C View Fig ) ................................................................................................. O. rylandae View in CoL sp. nov.

– Processes of the laterodorsal part of gonostyli strongly and regularly curved ventrally ( Fig. 19A, C View Fig ) ............................................................................................................ O. marginata Distant, 1906 View in CoL

6. Anal tube elongate and narrow, more than 3 times as long as broad, with sides subparallel ( Figs 5B View Fig , 10B View Fig ) ....................................................................................................................................................7

– Anal tube broader, less than 2.5 times as long as broad, with sides curved ( Figs 8B View Fig , 37B View Fig )...........9

7. Processes of the laterodorsal part of gonostyli falcate, broader at midlength and incurved ( Fig. 5A, C–D View Fig ) .................................................................................................................... O. bourgoini View in CoL sp. nov.

– Processes of the laterodorsal part of gonostyli regularly narrowing from base to apex and not incurved ( Fig. 10A, C–D View Fig )...................................................................................................................8

8. Processes of the laterodorsal part of gonostyli curved laterally ( Fig. 10C–D View Fig ); process of centroventral part of gonostyli with ventral margin convex in lateral view ( Fig. 10A View Fig ) ............................... .......................................................................................................................... O. guillaumei View in CoL sp. nov.

– Processes of the laterodorsal part of gonostyli curved ventrally ( Fig. 13C–D View Fig ); process of centroventral part of gonostyli with ventral margin slightly concave in lateral view ( Fig. 13A View Fig ) ................ ............................................................................................................................... O. hochae View in CoL sp. nov.

9. Anal tube with apical margin notched and lateral margins subparallel beyond epiproct ( Fig. 48B View Fig ); process of centroventral part of gonostyli very elongate and narrow ( Fig. 48A, C View Fig ) ........................... ............................................................................................................................. O. soulierae View in CoL sp. nov.

– Anal tube with apical margin not notched and lateral margins not subparallel beyond epiproct ( Figs 8B View Fig , 37B View Fig ); process of centroventral part of gonostyli not very elongate and narrow ( Figs 8A, C View Fig , 37A, C View Fig ).............................................................................................................................................10

10. Processes of the centroventral part of gonostyli incurved and slightly surpassing processes of lateroventral part in ventral view ( Fig. 37C View Fig ); anal tube regularly narrowing beyond epiproct ( Fig. 37B View Fig ) ..................................................................................................... O. nobilis ( Stål, 1863) View in CoL

– Processes of the centroventral part of gonostyli strongly hooked dorsally at apex and strongly surpassing processes of lateroventral part in ventral view ( Fig. 8C View Fig ); anal tube broadening beyond epiproct to ¾ of its length ( Fig. 8B View Fig ) .................................................................... O. danielsi View in CoL sp. nov.